Is Feedback Resistors' Impact on Transistor Amplification Significant?

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Feedback resistors play a crucial role in transistor amplification, influencing the amplification coefficient and the portion of output signal transferred to the base-emitter voltage. The discussion highlights the initial skepticism about feedback concepts, which later turned into an appreciation for their utility in circuit design. Questions arise regarding the impact of feedback resistor size on signal distortion, emphasizing the need for careful consideration in practical applications. Resources from Stanford are recommended for deeper understanding, particularly sections that illustrate feedback mechanisms. Overall, the conversation underscores the importance of feedback in both electronics and natural systems.
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Well, this post was just calling me out.

So my past few posts about transistors, and very good people that replied them, told me that I should embrace this new concept of feedback.

We just learned it last week, and I wasn't so excited about it.(meh, just another technique to make transistors even more complicated).

But when I actually went to study it, I found it VERY interesting and very useful technique(or consequence, i don't know how to call it :D).

I have fairly few simple questions.

First:

Is this site legit, or as mr. Claude would call it heresy ?

http://www.opamp-electronics.com/tutorials/feedback_3_04_10.htm"

If not, read on:

[PLAIN]http://pokit.org/get/663797f99b52fd6474a1a901e3a0088a.jpg

See that feedback resistor?

I understand that it controls the transistor's amplification coefficient(not as much as common-collector bias).

But here is what bothers me:

if I put this feedback resistor, do I with resistance control what portion of output signal I am transferring to base-emitter voltage?

Ie. If I had very small feedback resistor, would I transfer too much of output signal to input, and distort the whole thing?I have more questions, just I want to clear this for start.

Thanks
 
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Same link as in other thread. First read section 2.2, then section 5.6.
http://www.stanford.edu/class/ee122/Handouts/EE113_Course_Notes_Rev0.pdf

I think those notes are really good. Nice of Stanford to provide them.
 
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es1 said:
Same link as in other thread. First read section 2.2, then section 5.6.
http://www.stanford.edu/class/ee122/Handouts/EE113_Course_Notes_Rev0.pdf

I think those notes are really good. Nice of Stanford to provide them.

Thank you, I'm on it.
 
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Actually, I think I have my sections wrong. I got confused because they only give section numbering inside the document.

I meant. First 14:2.2, page 218 and 219.
Then 5.8: page 67 to 74. Especially look at the feedback diagram on page 73.
 
good for you!

i am enthisiastic about feedback. once you become aware of it you'll start noticing how Mother Nature uses it everywhere. She LOVES a balance.

will read your link tonite.

meantime, for feedback in nature and a break from electronics::

http://wattsupwiththat.com/2009/06/14/the-thermostat-hypothesis/

note very last comment...
 

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